SU80240A1 - Device for measuring the vertical component of the air flow - Google Patents

Description

The proposed device for measuring the airtightness component of the air flow is based on measuring the temperature difference between two metal conductors electrically electrically M) and air to the air flow o1 | angle of inclination to the horizon.

YcTpoiicTBa for determining the widths and directions of airflow by measuring the degree of cooling of conductors heated by electric current, so-called hot-wire anemometers, are known in measurement technology.

The difference between the proposed device Ov and the existing 11: x is that, in centr. (As measured by the vertical composition of the airflow, two mutually perpendicular heated filaments are located under a certain horizontal plane to the horizon that passes along the recovered flow axis,

FIG. 1 shows a diagram of the receiving part of the device; in fig. 2 electrical connections diagram.

The receiving part of the device consists of three electrically heated cables (wires of the thermal anemometer), in keys, x in series in the battery circuit. The thread / is located on the horizontal and is designed to determine the full velocity vector of the air flow; the two other mutually perpendicular filaments 2 are arranged at an angle of 45 ° to the horizon in a vertical plane perpendicular to the axis I, and are intended to determine the vertical component of the flow.

Copper-constantan thermocouples 3, 4 and 5 were used to measure the temperature of the filaments (Fig. 1), the working ends of which are fixed on the filaments, electrically insulated from them, for example, when they use glyptal varnish. In this case, the thermocouple 3 is included in the circuit of the galvanometer 6, (FIG. 2) on the scale of which the temperature of the filament is measured /. Thermocouples 4 to 5 are differentially connected

No. 802402 —and included in the galvanometer circuit 7, on a scale of which is produced by the temperature difference between the filaments 2.

The device is installed in the test stream. Due to the presence in the receiving device of a weather vane 8, the thread / takes the position that is impassive to the main stream. The current strength in the value of the threads / and 2 is set with the help of an ammeter 9 and a rheostat 10. A galvanometer 6 is used to determine the temperature pti, and the temperature of the complete vector of the airfoil associated with the temperature.

Based on the indications of the galvanometer 7, the temperature difference between the filaments .2 and the value of the vertical composition of the air flow associated with this difference, which affects the degree of heating 2, is determined.

To determine the temperature of one or the other yarn 2, the value is inclusive. Combined key switches K, Kz and K :. The rheostat 7 / serves as gfy: ,, measuring an adjustable incremental sonroti, 1, for VMetibuieHHR, the angle is open; ONEII of the movable galvanometer system 7 -

,; 1 redem T invention

Devices for the measurement of the vertical component of fluxes. There are assistive thermoanemometers, consisting of metal nnty, placed in measured flow, heated by electric current and equipped in their middle part with measuring thermocouple, about 5 tons per second. by the fact that the strands of the thermal anemometers are arranged one at a time between the nodes at certain angles to the horizontal plane, and the thermocouples fixed on them are included differentiated in the circuit of the measuring instrument so that the difference of their emf. was proportional to the vertical component of the measured flow.

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